螺旋纳米碳纤维因其杰出的物理和化学特性(低密度、超弹性、高导电率、高比强度、耐热性和化学稳定性)已经引起了人们极大的关注.它们可以被用来作为微磁传感器、电磁波吸收材料、储氢材料和弹性材料等.综述了螺旋纳米碳纤维的制备、影响因素、微观结构和生长机理,并讨论了螺旋纳米碳纤维存在的一些问题.
参考文献
| [1] | Fejes D;Hemadi K A .Review of the properties and CVD synthesis of coiled carbon nanotubes[J].Materials,2010,3(04):2618. |
| [2] | Davis W R;Slawson R J;Rigby G R .An unusual form of carbon[J].NATURE,1953,171:756. |
| [3] | Baker R T K;Harris P S;Terry S .Unique form of filamentous carbon[J].NATURE,1975,253:37. |
| [4] | Motojima S.;Kasemura T.;Takeuchi S.;Iwanaga H.;Asakura S. .CATALYTIC EFFECTS OF METAL CARBIDES, OXIDES AND NI SINGLE CRYSTAL ON THE VAPOR GROWTH OF MICRO-COILED CARBON FIBERS[J].Carbon: An International Journal Sponsored by the American Carbon Society,1996(3):289-296. |
| [5] | Chen XQ;Hasegawa M;Yang SM;Nitta Y;Katsuno T;Motojima S .Preparation of carbon microcoils by catalytic methane hot-wire CVD process[J].Thin Solid Films: An International Journal on the Science and Technology of Thin and Thick Films,2008(5):714-717. |
| [6] | Yang SM;Ozeki I;Chen X;Katsuno T;Motojima S .Preparation of single-helix carbon microcoils by catalytic CVD process[J].Thin Solid Films: An International Journal on the Science and Technology of Thin and Thick Films,2008(5):718-721. |
| [7] | Kuzuya C;Kohda M;Hishikawa Y et al.Preparation of carbon micro-coils with the application of and inner electromagnetic fields and bias voltage[J].CARBON,2002,40:1991. |
| [8] | Kuzuya C;Hayashi Y;Motojima S .Preparation of carbon micro-coils involving the decomposition of hydrocarbons using PACT (plasma and catalyst technology) reactor[J].CARBON,2002,40:1071. |
| [9] | Motojima S;Hoshiya S;Hishikawa Y .Electromagnetic wave absorption properties of carbon microcoils/PMMA composite beads in W bands[J].CARBON,2003,41:2658. |
| [10] | Yang S M;Chen X Q;Motojima S .Tactile sensing properties of protein-like single-helix carbon microcoils[J].CARBON,2006,44:3352. |
| [11] | Chiu C H;Hwan C L;Tsai H S et al.An experimental investigation into the mechanical behaviors of helical composite springs[J].Computers & Structures,2007,77:331. |
| [12] | Furuya Y;Hashishin T;Iwanaga H et al.Interaction of hydrogen with carbon coils at low temperature[J].CARBON,2004,42:331. |
| [13] | Korgel B A .Nanosprings take shape[J].SCIENCE,2005,309:1683. |
| [14] | Kitazima E;Oyama T;Maruden E.Coiled pitchbased carbon fiber[A].Santa Barbra,1991:328. |
| [15] | 赵峰,杨艳丽.CVD技术的应用与进展[J].热处理,2009(04):7-10. |
| [16] | Li D W;Pan L J;Qian J J et al.Highly efficient synthesis of carbon nanocoils by catalyst particles prepared by a sol-gel method[J].CARBON,2010,48:170. |
| [17] | Liu D Y;Luo Q M;Wang H X et al.Direct synthesis of micro-coiled carbon fibers on graphite substrate using coelectrodeposition of nickel and sulfur as catalysts[J].Materials and Design,2009,30:649. |
| [18] | Liu Y F;Shen Z M .Preparation of carbon microcoils and nanocoils using activated carbon nanotubes as catalyst support[J].CARBON,2005,43:1557. |
| [19] | Zhang L;Li E .Helical nanocoiled and microcoiled carbon fibers as effective catalyst supports for electrooxidation of methanol[J].Electrochimica Acta,2010,55:6695. |
| [20] | Wen Y K;Shen Z M .Synthesis of regular coiled carbon nanotubes by Ni-catalyzed pyrolysis of acetylene and a growth mechanism analysis[J].CARBON,2001,39:2369. |
| [21] | Changa N K;Chang S H .High-yield synthesis of carbon nanocoils on stainless steel[J].CARBON,2008,46:1091. |
| [22] | Motojima S;Chen X;Yang S et al.Properties and potential applications of carbon microcoils/nanocoils[J].Diamond and Related Materials,2004,13:1989. |
| [23] | Jian X;Jiang M;Zhou Z W et al.Preparation of high purity helical carbon nano fibers by the catalytic decomposition of acetylene and their growth mechanism[J].CARBON,2010,48:4535. |
| [24] | Yu L Y;Qin Y;Cui Z L .Synthesis of coiled carbon nanofibers by Cu-Ni alloy nanoparticles catalyzed decomposition of acetylene at the low temperature of 241℃[J].Materials Letters,2005,59:459. |
| [25] | Ren X;Zhang H;Cui Z L .Acetylene decomposition to helical carbon nanofibers over supported copper catalysts[J].Materials Research Bulletin,2007,42:2202. |
| [26] | Qin Y;Yu L Y;Wang Y et al.Amorphous helical carbon nanofibers synthesized at low temperature and their elasticity and processablity[J].Solid State Communications,2006,138:5. |
| [27] | Yang S;Chen X et al.Catalytic effects of various metal carbides and Ti compounds for the growth of carbon nanocoils (CNCs)[J].Materials Letters,2008,62:1462. |
| [28] | Yang S;Chen X;Kusunoki M et al.Microstructure and microscopic deposition mechanism of twist-shaped carbon nanocoils based on the observation of helical nanoparticles on the growth tips[J].CARBON,2005,43:916. |
| [29] | Yang S;Chen X;Motojima S .Morphology of the growth tip of carbon microcoils/nanocoils[J].Diamond and Related Materials,2004,13:2152. |
| [30] | Yang SM;Chen XQ;Motojima S;Ichihara M .Morphology and microstructure of spring-like carbon micro-coils/nano-coils prepared by catalytic pyrolysis of acetylene using Fe-containing alloy catalysts[J].Carbon: An International Journal Sponsored by the American Carbon Society,2005(4):827-834. |
| [31] | Celorrio V;Calvillo L;Martlnez-Huerta M V et al.Study of the synthesis conditions of carbon nanocoils for energetic applications[J].Energy and Fuels,2010,24:3361. |
| [32] | 于立岩,张乾,崔作林.螺旋纳米碳纤维的制备与表征[J].高等学校化学学报,2005(01):5-8. |
| [33] | Qin Y;Zhang Z K;Cui Z L .Helical carbon nanofibers with a symmetric growth mode[J].CARBON,2004,42:1917. |
| [34] | Amelinckx S;Zhang X B;Bernaerts D et al.A formation mechanism for catalytically grown helix-shaped graphite nanotubas[J].SCIENCE,1994,265:635. |
| [35] | 罗启枚,刘登友,王辉宪,周华,杨建奎.硫在螺旋炭纤维固相催化生长机理中的作用[J].炭素,2008(01):43-48,42. |
| [36] | Yang S M;Chen X Q;Motojima S et al.The phenomenon of changing coiling-chirality in carbon nanocoils obtained by catalytic pyrolysis of acetylene with various catalysts[J].Journal of Nanoscience and Nanotechnology,2004,4:167. |
| [37] | Korgel B A .Sel-assembled nanocoils[J].SCIENCE,2004,303:1308. |
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